/*-------------------------------------------------------------------------
 *
 * array.h--
 *    Utilities for the new array code. Contain prototypes from the
 *    following files:
 *		utils/adt/arrayfuncs.c
 *		utils/adt/arrayutils.c
 *		utils/adt/chunk.c
 *
 *
 * Copyright (c) 1994, Regents of the University of California
 *
 * $Id: array.h,v 1.3 1996/11/04 07:18:39 scrappy Exp $
 *
 * NOTES
 *    XXX the data array should be LONGALIGN'd -- notice that the array
 *    allocation code does not allocate the extra space required for this,
 *    even though the array-packing code does the LONGALIGNs.
 *
 *-------------------------------------------------------------------------
 */
#ifndef ARRAY_H
#define ARRAY_H

#include <stdio.h>

typedef struct {
    int	size;		/* total array size (in bytes) */ 
    int	ndim;		/* # of dimensions */
    int	flags;		/* implementation flags */
} ArrayType;

/*
 * bitmask of ArrayType flags field:
 * 1st bit - large object flag
 * 2nd bit - chunk flag (array is chunked if set)
 * 3rd,4th,&5th bit - large object type (used only if bit 1 is set)
 */
#define	ARR_LOB_FLAG	(0x1)
#define	ARR_CHK_FLAG	(0x2)
#define	ARR_OBJ_MASK	(0x1c)

#define ARR_FLAGS(a)		((ArrayType *) a)->flags
#define	ARR_SIZE(a)		(((ArrayType *) a)->size)

#define ARR_NDIM(a)		(((ArrayType *) a)->ndim)
#define ARR_NDIM_PTR(a)		(&(((ArrayType *) a)->ndim))

#define ARR_IS_LO(a) \
	(((ArrayType *) a)->flags & ARR_LOB_FLAG)
#define SET_LO_FLAG(f,a) \
	(((ArrayType *) a)->flags |= ((f) ? ARR_LOB_FLAG : 0x0))

#define ARR_IS_CHUNKED(a) \
	(((ArrayType *) a)->flags & ARR_CHK_FLAG)
#define SET_CHUNK_FLAG(f,a) \
	(((ArrayType *) a)->flags |= ((f) ? ARR_CHK_FLAG : 0x0))

#define ARR_OBJ_TYPE(a) \
	((ARR_FLAGS(a) & ARR_OBJ_MASK) >> 2)
#define SET_OBJ_TYPE(f,a) \
	((ARR_FLAGS(a)&= ~ARR_OBJ_MASK), (ARR_FLAGS(a)|=((f<<2)&ARR_OBJ_MASK)))

/*
 * ARR_DIMS returns a pointer to an array of array dimensions (number of
 * elements along the various array axes).
 *
 * ARR_LBOUND returns a pointer to an array of array lower bounds.
 *
 * That is: if the third axis of an array has elements 5 through 10, then
 * ARR_DIMS(a)[2] == 6 and ARR_LBOUND[2] == 5.
 *
 * Unlike C, the default lower bound is 1.
 */
#define ARR_DIMS(a) \
	((int *) (((char *) a) + sizeof(ArrayType)))
#define ARR_LBOUND(a) \
	((int *) (((char *) a) + sizeof(ArrayType) + \
		  (sizeof(int) * (((ArrayType *) a)->ndim))))

/*
 * Returns a pointer to the actual array data.
 */
#define ARR_DATA_PTR(a) \
	(((char *) a) + \
	 DOUBLEALIGN(sizeof(ArrayType) + 2 * (sizeof(int) * (a)->ndim)))

/*
 * The total array header size for an array of dimension n (in bytes).
 */
#define ARR_OVERHEAD(n)	\
	(DOUBLEALIGN(sizeof(ArrayType) + 2 * (n) * sizeof(int)))

/*------------------------------------------------------------------------
 * Miscellaneous helper definitions and routines for arrayfuncs.c
 *------------------------------------------------------------------------
 */

/* #if defined(irix5) */
/* #define RETURN_NULL {*isNull = true; return(0); }*/
/* #else*/ /* irix5 */
#define RETURN_NULL {*isNull = true; return(0); }
/* #endif */ /* irix5 */ 
#define NAME_LEN    30
#define MAX_BUFF_SIZE (1 << 13)

typedef struct {
    char  lo_name[NAME_LEN];
    int   C[MAXDIM];
} CHUNK_INFO;

/*
 * prototypes for functions defined in arrayfuncs.c
 */
extern char *array_in(char *string, Oid element_type);
extern char *array_out(ArrayType *v, Oid element_type);
extern char *array_dims(ArrayType *v, bool *isNull);
extern Datum array_ref(ArrayType *array, int n, int indx[], int reftype,
		       int elmlen, int arraylen, bool *isNull);
extern Datum array_clip(ArrayType *array, int n, int upperIndx[],
			int lowerIndx[], int reftype, int len, bool *isNull);
extern char *array_set(ArrayType *array, int n, int indx[], char *dataPtr,
		       int reftype, int elmlen, int arraylen, bool *isNull);
extern char *array_assgn(ArrayType *array, int n, int upperIndx[],
		  int lowerIndx[], ArrayType *newArr, int reftype,
		  int len, bool *isNull);
extern int array_eq (ArrayType *array1, ArrayType *array2);
extern SanityCheckInput(int ndim, int n, int dim[], int lb[], int indx[]);
extern char *array_seek(char *ptr, int eltsize, int nitems);
extern int array_read(char *destptr, int eltsize, int nitems, char *srcptr);
extern int _LOtransfer(char **destfd, int size,	int nitems, char **srcfd,
		int isSrcLO, int isDestLO);

extern char * _array_newLO(int *fd, int flag);


/*
 * prototypes for functions defined in arrayutils.c
 * [these names seem to be too generic. Add prefix for arrays? -- AY]
 */

extern int GetOffset(int n, int dim[], int lb[], int indx[]);
extern int getNitems(int n, int a[]);
extern int compute_size(int st[], int endp[], int n, int base);
extern void mda_get_offset_values(int n, int dist[], int PC[], int span[]);
extern void mda_get_range(int n, int span[], int st[], int endp[]);
extern void mda_get_prod(int n, int range[], int P[]);
extern int tuple2linear(int n, int tup[], int scale[]);
extern void array2chunk_coord(int n, int C[], int a_coord[], int c_coord[]);
extern int next_tuple(int n, int curr[], int span[]);

/*
 * prototypes for functions defined in chunk.c
 */
extern char * _ChunkArray(int fd, FILE *afd, int ndim, int dim[], int baseSize,
			  int *nbytes, char *chunkfile);
extern int GetChunkSize(FILE *fd, int ndim, int dim[MAXDIM], int baseSize, 
			int d[MAXDIM]);
extern int _ReadChunkArray(int st[], int endp[], int bsize, int fp,
		char *destfp, ArrayType *array, int isDestLO, bool *isNull);
extern struct varlena *_ReadChunkArray1El(int st[], int bsize, int fp,
					  ArrayType *array, bool *isNull);


#endif /*  ARRAY_H */
